CN106031284B - Terminal installation, integrated circuit and wireless communications method - Google Patents

Abstract

Terminal installation according to the present invention is characterized in that, it is the terminal installation for sending signal to base station apparatus by uplink, has the information generation unit for considering the priority for multiple MAC controlling elements during the bgical channel priority sequence for the uplink assigns in the case where initially send, in the multiple MAC controlling element, including at least 1MAC controlling element and 2MAC controlling element, the 1MAC controlling element provides information relevant to the 1st data volume that can be sent in the 1st buffer area for being directed to the uplink to the base station apparatus, the 2MAC controlling element provides to the base station apparatus and for the 2nd data that can be sent in the 2nd buffer area for the 1st link of the communication between the terminal installation and other terminal installations Relevant information is measured, for the 1MAC controlling element other than the case where including to fill, priority is higher than the 2MAC controlling element.

Description

Terminal installation, integrated circuit and wireless communications method

Technical field

The present invention relates to terminal installation, integrated circuit and wireless communications methods.

The application based on March 20th, 2014 Japanese publication Patent 2014-058169 CLAIM OF PRIORITY, and by its Content is incorporated herein.

Background technique

It is being ground in third generation cooperative partner program (3rd Generation Partnership Project:3GPP) Study carefully wireless access way (the Evolved Universal Terrestrial Radio of honeycomb (cellular) mobile communication ) and Radio Access Network (Evolved Universal Terrestrial Radio Access Access:EUTRA Network:EUTRAN).Also EUTRA and EUTRAN are known as LTE (Long Term Evolution).In LTE, also will Base station apparatus is known as eNodeB (evolved NodeB), and terminal installation is known as UE (User Equipment).LTE is by base The region that station arrangement is covered configures multiple cellular communication systems in honeycomb.One base station apparatus can also manage multiple Cell.

In 3 gpp, the research of ProSe (Proximity Services) is being carried out.ProSe has found comprising ProSe (discovery) and ProSe communicates (communication).ProSe is the discovery that terminal installation and is determined using EUTRA and it The processing for the case where his terminal installation is close to (in proximity).ProSe communication, which is used in, establishes between 2 terminal installations The communication of close 2 terminal rooms of EUTRAN communication path (communication path).For example, the communication path can Directly to be established between terminal installation.

ProSe discovery and ProSe communication are also referred to as D2D discovery and D2D communication respectively.Also by D2D discovery and D2D Communication is collectively referred to as D2D.

In non-patent literature 1, it describes following content: reserving subset, the network settings D2D of resource block for D2D The set and terminal installation of resource are licensed the transmission D2D signal in the resource of the setting.

Existing technical literature

Non-patent literature

Non-patent literature 1: " D2D for LTE Proximity Services:Overview ", R1-132028,3GPP TSG-RAN WG1 Meeting#73、20-24May 2013.

Summary of the invention

Subject to be solved by the invention

The present invention makees in view of above content, and its purpose is to provide one kind can be carried out efficiently and buffer state report Accuse the end of (Buffer Status Report:BSR) or scheduling request (Scheduling Request:SR) associated processing Wireless communications method used in end device, the integrated circuit for being installed on the terminal installation and the terminal installation.

Means for solving the problems

(1) in order to achieve the above objectives, present invention employs following such means.That is, terminal installation of the invention is The terminal installation for sending signal to base station apparatus by uplink, is configured to, has information generation unit, the information The bgical channel priority sequence that generating unit execution in the case where initially send is directed to the uplink assigns process, In The bgical channel priority sequence considers the priority for being directed to multiple MAC controlling elements during assigning, and controls in the multiple MAC In element processed, 1MAC controlling element and 2MAC controlling element are included at least, the 1MAC controlling element is used for described Base station apparatus provides information relevant to the 1st data volume that can be sent in the 1st buffer area for being directed to the uplink, institute State 2MAC controlling element for the base station apparatus provide with for for the terminal installation and other terminal installations it Between communication the 1st link the 2nd buffer area in the relevant information of the 2nd data volume that can be sent, in addition in order to fill and Other than the case where including the 1MAC controlling element, the priority of the 1MAC controlling element is controlled higher than the 2MAC Element.

(2) in addition, being also configured in the present invention, in addition in order to fill and comprising the 2MAC controlling element Other than situation, the priority of the 2MAC controlling element be higher than in order to fill and comprising 1MAC control want Element.

(3) in addition, being also configured in the present invention, in order to fill and comprising the 2MAC controlling element institute Priority is stated lower than the 1MAC controlling element.

(4) in addition, being also configured in the present invention, in the multiple MAC controlling element, comprising for by power Headroom reporting is supplied to the 3MAC controlling element of the base station apparatus, and the priority of the 3MAC controlling element is higher than The 2MAC controlling element.

(5) in addition, being also configured in the present invention, in addition in order to fill and comprising the 1MAC controlling element Other than situation, the priority of the 1MAC controlling element is higher than the 3MAC controlling element.

(6) in addition it is also possible to be configured to, during bgical channel priority sequence of the invention assigns, according to institute State the order-assigned uplink resource of priority.

(7) in addition, integrated circuit of the invention is mounted to send the terminal of signal to base station apparatus by uplink The integrated circuit of device, being configured to, which is included in the terminal installation performance, carries out executing needle in the case where initially sending Process is assigned to the bgical channel priority sequence of the uplink, is considered during the bgical channel priority sequence assigns For a series of function including the function of the priority of multiple MAC controlling elements, in the multiple MAC controlling element, Including at least 1MAC controlling element and 2MAC controlling element, the 1MAC controlling element to the base station apparatus for mentioning For information relevant to the 1st data volume that can be sent in the 1st buffer area for being directed to the uplink, the 2MAC control Element processed is used to provide to the base station apparatus and for for the communication between the terminal installation and other terminal installations The relevant information of the 2nd data volume that can be sent in 2nd buffer area of the 1st link, in addition to including described in order to fill Other than the case where 1MAC controlling element, the priority of the 1MAC controlling element is higher than the 2MAC controlling element.

(8) in addition, being also configured in integrated circuit of the invention, in addition to including the 2MAC to fill Other than the case where controlling element, the priority of the 2MAC controlling element be higher than in order to fill and comprising described the 1MAC controlling element.

(9) in addition, being also configured in integrated circuit of the invention, in order to fill and comprising the 2MAC control The priority of element processed is lower than the 1MAC controlling element.

(10) in addition, being also configured in integrated circuit of the invention, in the multiple MAC controlling element, packet Containing the 3MAC controlling element for power headroom reporting (PHR) to be supplied to the base station apparatus, the institute of the 3MAC controlling element Priority is stated higher than the 2MAC controlling element.

(11) in addition, being also configured in integrated circuit of the invention, in addition to including described in order to fill Other than the case where 1MAC controlling element, the priority of the 1MAC controlling element is higher than the 3MAC controlling element.

(12) it in addition, being also configured in integrated circuit of the invention, is assigned in the bgical channel priority sequence In the process, according to the order-assigned uplink resource of the priority.

(13) in addition, wireless communications method of the invention is the end for sending signal to base station apparatus by uplink The wireless communications method of end device, is configured to, and executes in the case where initially send and is directed to the uplink Bgical channel priority sequence assign process, consider to control for multiple MAC during bgical channel priority sequence assigns The priority of element processed is wanted in the multiple MAC controlling element including at least 1MAC controlling element and 2MAC control Element, the 1MAC controlling element are used to provide and be directed in the 1st buffer area of the uplink to the base station apparatus The relevant information of the 1st data volume that can be sent, the 2MAC controlling element are used to provide and be directed to the base station apparatus For can send the 2nd in the 2nd buffer area of the 1st link of the communication between the terminal installation and other terminal installations The relevant information of data volume, in addition in order to fill and the case where include the 1MAC controlling element other than, the 1MAC control The priority of element processed is higher than the 2MAC controlling element.

(14) in addition, being also configured in wireless communications method of the invention, in addition to including described in order to fill Other than the case where 2MAC controlling element, the priority of the 2MAC controlling element be higher than in order to fill and comprising institute State 1MAC controlling element.

(15) in addition, being also configured in wireless communications method of the invention, in order to fill and comprising described The priority of 2MAC controlling element is lower than the 1MAC controlling element.

(16) in addition, being also configured in wireless communications method of the invention, in the multiple MAC controlling element In, comprising the 3MAC controlling element for power headroom reporting (PHR) to be supplied to the base station apparatus, the 3MAC control is wanted The priority of element is higher than the 2MAC controlling element.

(17) in addition, being also configured in wireless communications method of the invention, in addition to including described in order to fill Other than the case where 1MAC controlling element, the priority of the 1MAC controlling element is higher than 3MAC control and wants Element.

(18) in addition, being also configured in wireless communications method of the invention, in the bgical channel priority sequence During imparting, according to the order-assigned uplink resource of the priority.

Invention effect

In accordance with the invention it is possible to efficiently carry out with Buffer Status Report (Buffer Status Report:BSR) or Scheduling request (Scheduling Request:SR) associated processing.

Detailed description of the invention

Fig. 1 is the concept map of wireless communication system involved in embodiments of the present invention.

Fig. 2 is the figure for indicating the schematic configuration of radio frames involved in embodiments of the present invention.

Fig. 3 is the figure for indicating the composition of time slot involved in embodiments of the present invention.

Fig. 4 is the figure for indicating an example of the composition of MAC PDU involved in embodiments of the present invention.

Fig. 5 is the figure for indicating an example of the composition of C-RNTI MAC CE involved in embodiments of the present invention.

Fig. 6 is the figure for indicating an example of the composition of PH MAC CE involved in embodiments of the present invention.

Fig. 7 is an example for indicating to have used the composition of BSR MAC CE of short BSR involved in embodiments of the present invention Figure.

Fig. 8 is an example for indicating to have used the composition of BSR MAC CE of long BSR involved in embodiments of the present invention Figure.

Fig. 9 is to indicate the buffer area as shown in the buffer size field of 6 bits involved in embodiments of the present invention The figure of an example of size benchmark.

Figure 10 is to indicate that the extension as shown in the buffer size field of 6 bits involved in embodiments of the present invention is slow Rush the figure of an example of area's size benchmark.

Figure 11 is the structure for indicating to have used the D2D BSR MAC CE of the 2nd short BSR involved in embodiments of the present invention At an example figure.

Figure 12 is the structure for indicating to have used the D2D BSR MAC CE of the 3rd short BSR involved in embodiments of the present invention At an example figure.

Figure 13 is the composition for indicating to have used the D2D BSR MAC CE of intermediate BSR involved in embodiments of the present invention An example figure.

Figure 14 is to indicate the buffer area as shown in the buffer size field of 8 bits involved in embodiments of the present invention The figure of an example of size benchmark.

Figure 15 is to indicate the buffer area as shown in the buffer size field of 4 bits involved in embodiments of the present invention The figure of an example of size benchmark.

Figure 16 is the figure indicated involved in embodiments of the present invention for an example of the logic channel ID of UL-SCH.

Figure 17 is another figure indicated involved in embodiments of the present invention for the logic channel ID of UL-SCH.

Figure 18 is the schematic block diagram for indicating the composition of base station apparatus 3 involved in embodiments of the present invention.

Figure 19 is the schematic block diagram for indicating the composition of terminal installation 1 involved in embodiments of the present invention.

Specific embodiment

Hereinafter, illustrating embodiments of the present invention.

In the present embodiment, terminal installation is set one or more cells.Terminal installation is carried out by multiple cells The technology of communication is known as cell aggregation or carrier wave polymerization.It can also be in each cell of multiple cells for terminal installation setting In, using the present invention.Further, it is also possible in a part of set multiple cells, using the present invention.It will set to terminal The cell of device is also referred to as serving cell.

Set multiple serving cells include 1 main plot and one or more secondary cells.Main plot is to have carried out initially Connection establish (initial connection establishment) process serving cell, started connection re-establish The serving cell of (connection re-establishment) process is indicated as main plot in handover procedure Cell.It can also be set auxiliary small at the time point or later for establishing RRC (Radio Resource Control) connection Area.

It, can also be for multiple cells all using TDD (Time Division in the case where cell aggregation Duplex) mode or FDD (Frequency Division Duplex) mode.In addition it is also possible to the small of application TDD mode The cell of area and application FDD mode is polymerize.

Fig. 1 is the concept map of the wireless communication system of present embodiment.In Fig. 1, wireless communication system has terminal dress Set 1A~1C, repeater 2 and base station apparatus 3.Terminal installation 1A~1C is known as terminal installation 1.Repeater 2 has will be from end The signal that end device 1 receives amplifies and sends the function of amplified signal.Serving cell 4 indicates base station apparatus 3 (LTE) region covered.

Uplink 5 is from terminal installation 1 to the link of base station apparatus 3.In addition, in uplink 5, it can also be obstructed It crosses repeater and directly transmits signal from terminal installation 1 to base station apparatus 3.Downlink 7 is from base station apparatus 3 to terminal installation 1 link.In addition, uplink 5 and downlink 7 are also referred to as cellular link or cellular communications path.In addition, terminal is filled It sets 1 and is also referred to as cellular communication with the communication of base station apparatus 3.

D2D link 9 is the link between terminal installation 1.In addition, D2D link 9 is also referred to as D2D communication path, ProSe Link or ProSe communication path.In D2D link 9, D2D discovery and D2D communication are carried out.D2D is the discovery that terminal installation 1 makes Processing/the process for the case where being determined with EUTRA with other terminal installations 1 close to (in proximity).D2D communication uses Communication between close 2 terminal installations 1 for the EUTRAN communication path established between 2 terminal installations 1.For example, this is logical Letter path can also directly be established between terminal installation 1.

In addition, D2D link 9 also may include ProSe-assisted WLAN (Wireless Local Area Network) direct communication path.For example, it is also possible to based on D2D find and find 2 close terminal installations 1, EUTRAN to 2 terminal installations 1 provide the set information of WLAN, which is established based on the set information of the WLAN ProSe-assisted WLAN direct communication path.For example, it is also possible to be found based on the D2D for having used EUTRAN and find to connect 2 close terminal installations 1 establish EUTRAN communication path or ProSe-assisted between 2 terminal installations 1 of the discovery WLAN (Wireless Local Area Network) direct communication path.

It include mode in the distribution method of radio resource in the case where UE carries out D2D transmission using such D2D link 9 1 and mode 2 this 2 modes.Mode 1 be by base station apparatus 3 come dispatch terminal device 1 on D2D link 9 in data-signal or Control the mode of resource used in the transmission of signal.Wherein, base station apparatus 3 is also possible to relay station.Mode 2 is filled by terminal Set 1 itself selects terminal installation 1 on D2D link 9 in data-signal or control signal from workable radio resource pond Transmission used in resource come using mode.For mode 2, workable radio resource pond both can be pre- prerequisite It is fixed, it can also notify, can also be set by higher level's layer from base station apparatus 3.

Physical channel and physical signal about present embodiment are illustrated.

Downlink physical channel and Downlink Physical signal are collectively referred to as down link signal.By uplink object Reason channel and uplink physical signal are collectively referred to as uplink signal.Physical channel is used to send the letter exported from higher level's layer Breath.Though physical signal is not used in the information for sending and exporting from higher level's layer, used by physical layer.

In Fig. 1, in the wireless communication of uplink, uplink physical channel below is used.

PUCCH (Physical Uplink Control Channel, physical uplink control channel)

PUSCH (Physical Uplink Shared Channel, physical uplink shared channel)

PRACH (Physical Random Access Channel, Physical Random Access Channel)

PUCCH is the physics for sending uplink control information (Uplink Control Information:UCI) Channel.Uplink control information include downlink channel state information (Channel State Information: CSI), the scheduling request (Scheduling Request:SR) of the request of PUSCH resource is indicated, for down link data ACK (the acknowledgement)/NACK of (Transport block, Downlink-Shared Channel:DL-SCH) (negative-acknowledgement).ACK/NACK is also referred to as HARQ-ACK or HARQ feedback.

PUSCH be for send uplink data (Uplink-Shared Channel:UL-SCH) and/or The physical channel of HARQ-ACK and/or channel state information.

PRACH is the physical channel for sending random access lead code.PRACH establishes (initial in initial connection Connection establishment) process, handover procedure, connection re-establish (connection re- Establishment it is used during).

In Fig. 1, in the wireless communication of uplink, uplink physical signal below is used.

Uplink reference signals (Uplink Reference Signal:UL RS)

In the present embodiment, using the uplink reference signals of 2 seed type below.

DMRS (Demodulation Reference Signal, demodulated reference signal)

SRS (Sounding Reference Signal, detection reference signal)

DMRS is associated with the transmission of PUSCH or PUCCH.DMRS and PUSCH or PUCCH carries out time-multiplexed.Base station apparatus 3 DMRS is used in order to carry out the propagation path correction of PUSCH or PUCCH.The case where PUSCH is sent together with DMRS is referred to as To send PUSCH.The case where PUCCH is sent together with DMRS referred to as sends PUCCH.The hair of SRS and PUSCH or PUCCH It send unrelated.Base station apparatus 3 uses SRS to measure the channel status of uplink.

In Fig. 1, in the wireless communication of downlink, downlink physical channel below is used.

PBCH (Physical Broadcast Channel, Physical Broadcast Channel)

PCFICH (Physical Control Format Indicator Channel, physical control format instruction letter Road)

PHICH (Physical Hybrid automatic repeat request Indicator Channel, object Manage hybrid automatic repeat request indication channel)

PDCCH (Physical Downlink Control Channel, physical downlink control channel)

(Enhanced Physical Downlink Control Channel enhances physical down link to EPDCCH Control channel)

PDSCH (Physical Downlink Shared Channel, physical down link sharing channel)

PMCH (Physical Multicast Channel, Physical Multicast Channel)

PBCH for being used in conjunction in broadcast terminal device 1 Master Information Block (Master Information Block: MIB, Broadcast Channel:BCH).For example, MIB includes the information for indicating SFN.SFN(system frame number) It is the number of radio frames.MIB is system information.

PCFICH is used to send the information in region (OFDM symbol) used in the transmission of instruction PDCCH.

PHICH is for sending expression to uplink data (Uplink received by base station apparatus 3 SharedChannel:UL-SCH ACK's (ACKnowledgement)) or NACK (Negative ACKnowledgement) HARQ indicator (HARQ feedback).

PDCCH and EPDCCH for send down link control information (Downlink Control Information: DCI).Down link control information is also referred to as DCI format.Down link control information is permitted comprising downlink (downlink grant) and uplink permit (uplink grant).Downlink license is also referred to as downlink allocation (downlink assignment) or downlink distribute (downlink allocation).

Scheduling of the uplink license for the single PUSCH in single subdistrict.In uplink license Mr. Yu's subframe Single PUSCH scheduling.Scheduling of the downlink license for the single PDSCH in single subdistrict.Downlink license is used In the scheduling of the PDSCH in subframe identical with the subframe for having sent downlink license.

In DCI format, CRC (Cyclic Redundancy Check) parity check bit is added.CRC parity check bit It is scrambled by C-RNTI (Cell-Radio Network Temporary Identifier).C-RNTI is for small The identifier of identification terminal device 1 in area.C-RNTI is used to control the resource of the PDSCH in single subframe or the resource of PUSCH.

PDSCH is for sending down link data (Downlink Shared Channel:DL-SCH).

PMCH is for sending multicast packet (Multicast Channel:MCH).

In Fig. 1, in the wireless communication of downlink, Downlink Physical signal below is used.

Synchronization signal (Synchronization signal:SS)

Downlink reference signal (Downlink Reference Signal:DL RS)

Synchronization signal obtains the frequency domain of downlink and the synchronization of time domain for terminal installation 1.In FDD mode, together Step signal is configured at the subframe 0 and 5 in radio frames.

Downlink reference signal carries out the propagation path correction of downlink physical channel for terminal installation 1.Downlink Link reference signal calculates the channel state information of downlink for terminal installation 1.Downlink reference signal is used for terminal The geographical location of the measurement present apparatus of device 1.

In Fig. 1, in the wireless communication of the D2D link 9 between terminal installation 1, D2D physical channel below is used.

·PD2DCCH(Physical D2D Control Channel)

·PD2DDCH(Physical D2D Data Channel)

PD2DCCH is the physical channel for sending D2D link control message.D2D link control message includes to receive D2D The terminal installation 1 of signal decodes required information.For example, may include the mark for sending the terminal installation 1 that D2D sends data Symbol, D2D send MCS (Modulation and Coding Scheme, Modulation and Coding Scheme), resource used in data-signal The information such as configuration.

PD2DDCH is the physical channel that data are sent for sending D2D.But the title of above-mentioned D2D physical channel is one Example, also can be used different titles.In addition, also can be used down in the wireless communication of the D2D link 9 between terminal installation 1 Uplink physical channel or uplink physical channel.By the signal received and dispatched in D2D link 9 (physical channel and physics letter Number) also referred to as it is directed to signal, the signal for D2D, D2D signal that D2D is used.

Then, it is illustrated about logic channel.Logic channel is defined by M AC (Medium Access Control:MAC) data of layer transmitting-receiving send the type of service.In logic channel, include following channels.

BCCH (Broadcast Control Channel, broadcast control channel)

PCCH (Paging Control Channel, Paging Control Channel)

CCCH (Common Control Channel, common control channel)

DCCH (Dedicated Control Channel, dedicated control channel)

DTCH (Dedicated Traffic Channel, Dedicated Traffic Channel)

BCCH is the downlink channel for broadcast system control information.

PCCH is the downlink channel for sending paging information, when network does not know the subdistrict position of terminal installation It is used.

CCCH is the channel for sending the control information between terminal installation and network, by not having wireless money with network The terminal installation that source controls (RRC:Radio Resource Control) connection uses.

DCCH is the two-way channel of 1 pair 1 (point-to-point), is single for sending between terminal installation and network The channel of only control information.

DCCH is used by the terminal installation connected with RRC.

DTCH is 1 pair 1 of two-way channel, is 1 dedicated channel of terminal installation, is used for user information (unicast data) Transmission.

BCH, MCH, UL-SCH and DL-SCH are transmission channels.The channel used in medium access control layer is known as passing Defeated channel.The unit of data in the transmission channel used by MAC layer is also referred to as transmission block (transport block:TB) Or MAC PDU (Protocol Data Unit).HARQ (Hybrid is carried out according to each transmission block in the mac layer Automatic Repeat reQuest) control.Transmission block is the list for the data that MAC layer transmits (deliver) to physical layer Position.Within the physical layer, transmission block is mapped to code word, carries out coded treatment according to each code word.

The structure (structure) of radio frames (radio frame) about present embodiment is illustrated.

In LTE, 2 kinds of wireless frame structures are supported.2 kinds of wireless frame structures are frame structure Class1 and frame structure type 2.Frame Structure type 1 can be applied to FDD.Frame structure type 2 can be applied to TDD.

Fig. 2 is the figure for indicating the schematic configuration of radio frames of present embodiment.In Fig. 2, horizontal axis is time shaft.In addition, The radio frames of Class1 and type 2 are 10ms long, are defined by 10 subframes.Each subframe is 1ms long, continuous by 2 Time slot defines.Each time slot is 0.5ms long.I-th of subframe in radio frames is by (2 × i) a time slot and (2 × i+1) A time slot is constituted.

For frame structure type 2, the subframe of following 3 types is defined.

Downlink subframe

Uplink subframe

Special subframe

Downlink subframe is reserved subframe for downlink transmission.Uplink subframe is for uplink It sends and reserved subframe.Special subframe is made of 3 fields (filed).3 fields are DwPTS (Downlink Pilot Time Slot, down link pilot timeslot), GP (Guard Period, protection period) and UpPTS (Uplink Pilot Time Slot, uplink pilot time slot).Total length of DwPTS, GP and UpPTS are 1ms.DwPTS is in order under Line link is sent and reserved field.UpPTS is reserved field for uplink transmission.GP is without downlink The field that transmission and uplink are sent.In addition, special subframe can also be only made of DwPTS and GP, can also only by GP and UpPTS is constituted.

The radio frames of frame structure type 2 are at least made of downlink subframe, uplink subframe and special subframe.

The composition of time slot about present embodiment is illustrated.

Fig. 3 is the figure for indicating the composition of time slot of present embodiment.In Fig. 3, for OFDM symbol or SC-FDMA symbol Using conventional CP (Cyclic Prefix).The physical signal or physical channel sent in each time slot passes through resource grid (grid) it shows.In Fig. 3, horizontal axis is time shaft, and the longitudinal axis is frequency axis.In the downlink, resource grid passes through multiple Subcarrier and multiple OFDM symbols define.In the uplink, resource grid is accorded with by multiple subcarriers and multiple SC-FDMA It number defines.For example, resource grid can also be determined by multiple subcarriers and multiple SC-FDMA symbols in D2D link Justice.The number for constituting the subcarrier of 1 time slot depends on the bandwidth of cell.Constitute the OFDM symbol or SC-FDMA symbol of 1 time slot Number number be 7.Each element in resource grid is known as element of resource.Element of resource uses the number and OFDM of subcarrier The number of symbol or SC-FDMA symbol identifies.

Resource block is for showing certain mapping of physical channel (PDSCH or PUSCH etc.) to element of resource.Resource block is defined Virtual resource blocks and Physical Resource Block.Certain physical channel is first mapped to virtual resource blocks.Then, virtual resource blocks are mapped to object Manage resource block.1 Physical Resource Block is continuous by 12 in 7 in time domain continuous OFDM symbols or SC-FDMA symbol and frequency domain Subcarrier definition.So 1 Physical Resource Block is made of (7 × 12) a element of resource.In addition, 1 Physical Resource Block when Correspond to 1 time slot in domain, corresponds to 180kHz in a frequency domain.Physical Resource Block is endowed number since 0 in a frequency domain.

In addition, can also be with application extension (extended) CP for OFDM symbol or SC-FDMA symbol.In the feelings of extension CP Under condition, the number of the OFDM symbol or SC-FDMA symbol that constitute 1 time slot is 7.

An example of the composition of MAC PDU involved in present embodiment is shown in Fig. 4.1 MAC PDU is by 1 MAC header, 0 A above MAC Service Data Unit (MAC Service Data Units:MAC SDU), 0 or more MAC controlling element (MAC Control Element:MAC CE) and filling (padding) are constituted.

MAC header is made of multiple subheaders, MAC SDU, the MAC CE and fill out that each subheader corresponds in same MAC PDU It fills.In subheader, other than the information comprising indicating corresponding MAC SDU, MAC CE or the logic channel ID of filling, also The information, filling bit such as the size as needed comprising corresponding MACSDU, MAC CE.About the logic channel ID in subheader, Its an example is described below.

In the MAC CE that can be applied in the MAC PDU for being mapped to UL-SCH, comprising for reporting the slow of uplink Rush zone state report (Buffer Status Report:BSR) BSR MAC CE (there is the case where referred to as MAC BSRCE), For reporting D2D BSR MAC CE of the BSR of D2D link, for notifying C-RNTI (Cell-Radio.Network TemporaryIdentifier C-RNTI MAC CE), for reporting power climbing space (Power Headroom:PH, hair Send power headroom) report PH MAC CE.

BSR MAC CE is used to provide the Uplink buffer and the buffer area D2D in terminal installation 1 to base station apparatus 3 In include the relevant information of data volume that can be sent.D2D BSR MAC CE is used to provide terminal installation 1 to base station apparatus 3 In the buffer area D2D in include the relevant information of data volume that can be sent.Explanation about BSR is described below.

C-RNTI MAC CE includes the C-RNTI for being for identification the signal which terminal installation in cell is sent.Fig. 5 It is an example for indicating the composition of C-RNTI MACCE.C-RNTI MAC CE by the C-RNTI comprising terminal installation C-RNTI word Section is constituted.The length of C-RNTI field is 16 bits (2 eight hytes).Identify it is C- by corresponding MAC PDU subheader RNTI MAC CE。

The benchmark that PH MAC CE is used to provide the terminal installation 1 for each serving cell being activated to base station apparatus 3 is maximum Send the difference phase of electric power required for the transmission of power (nominal UE maximum transmit power) with UL-SCH The benchmark maximum of terminal installation 1 in the information and main plot of pass is sent required for the transmission of power and UL-SCH and PUCCH Power the relevant information of difference PH.Fig. 6 is an example for indicating the composition of PH MAC CE.PHMAC CE is by being set to 0 2 bits reservation bit (reserved bit) and indicate PH 6 bits PH field total 8 bits (1 eight hyte) structure At.Identify it is PH MAC CE by corresponding MAC PDU subheader.But in the feelings sent using multiple serving cells Under condition, the extension PH MACCE (extended PH MAC CE) for notifying the PH of each serving cell also can be used.

Hereinafter, BSR and scheduling request involved in present embodiment (Scheduling Request:SR) are carried out Explanation.

The uplink data that can be sent or D2D data, and unassigned UL-SCH are generated in terminal installation 1 In the case where resource, using the PUCCH distributed from base station apparatus 3, SR is sent to base station apparatus 3.For example, uplink data is The data of logic channel in uplink.For example, D2D data are the data of the logic channel in D2D link.

In addition, the D2D data that can be sent can also be generated in terminal installation 1 by being set the terminal installation 1 of mode 2 And in the case where unassigned UL-SCH resource, does not utilize from the PUCCH that base station apparatus 3 distributes to base station apparatus 3 and send SR.

That is, generating the D2D data that can be sent in the terminal installation 1 of the mode that has been set 1, and unassigned UL- In the case where SCH resource, SR is triggered.In addition, generating the D2D number that can be sent in the terminal installation 1 of the mode that has been set 2 According to, and in the case where unassigned UL-SCH resource, do not trigger SR.Slave pattern 1 is reset to the terminal installation 1 of mode 2 It can also cancel due to being only to generate the D2D data that can be sent and unassigned UL-SCH resource in terminal installation 1 Situation and the SR triggered.

In the case where being assigned with UL-SCH from base station apparatus 3 after sending SR, terminal installation 1 utilizes assigned UL- SCH resource is sent to base station apparatus 3 indicates the uplink data of terminal installation 1 or the buffer status information of D2D data BSR.The BSR that uplink sends data is known as uplink BSR in the present embodiment, D2D is sent to the BSR of data Referred to as D2D BSR.Base station apparatus 3 is carried out in the case where receiving uplink BSR from terminal installation 1 to terminal installation 1 The scheduling of uplink data carries out the D2D number to terminal installation 1 in the case where receiving D2D BSR from terminal installation 1 According to scheduling.

After sending SR from 3 unallocated UL-SCH of base station apparatus, terminal installation 1 sends SR again.Shortly In the case where so that the repeating transmission of the SR of stipulated number is not also distributed UL-SCH from base station apparatus 3, the release of terminal installation 1 is assigned PUCCH and SRS, execute random access procedure.

Next the uplink BSR involved in present embodiment is illustrated as follows.

In the uplink, each logic channel is classified as logic channel group (Logical Channel Group:LCG). In uplink BSR, uplink data corresponding with each LCG is sent into message of the data buffer zone amount as MAC layer And it notifies to base station apparatus.

Uplink BSR includes routine BSR (regular BSR), periodicity BSR according to the condition being triggered (periodic BSR) and filling BSR (padding BSR).

Conventional BSR is triggered in the case of following: the data for belonging to the logic channel of certain LCG become to send, and And it sends priority and is higher than the logic channel for having been able to send or belong at any one that any one belongs to LCG There is no the data that can be sent in the logic channel of LCG.In addition, routine BSR is triggered in the case of following: defined repeating transmission Timer retxBSR-Timer expires, and UE has the data that can be sent by the logic channel for belonging to certain LCG.

Periodical BSR is triggered in the case where defined Periodic Timer periodic BSR-Timer expires.

Filling BSR is triggered in the case of following: UL-SCH is assigned, and filling bit number and BSR MAC CE and Its subheader equal in magnitude is bigger.

In addition, including long BSR (Long BSR), short BSR in the format of MAC CE for sending uplink BSR (Short BSR) and truncate BSR (Truncated BSR).

Short BSR in the case that the number of LCG is 4 is shown in Fig. 7 or truncates an example of the composition of BSR.In Fig. 7, Short BSR or truncate BSR by indicate be 2 bits of the Buffer Status Report of which LCG LCGID field and indicate the LCG Total 8 bits (1 eight hyte) of buffer size field of 6 bits of buffer size constitute, can send 1 LCG's Buffer Status Report.

Buffer size field is indicated for TTI (Transmission Time Interval: transmission time interval) All MAC PDU are fabricated the data that can be utilized involved in whole logic channels of the logic channel group after (built) Total amount.

An example of the composition of long BSR in the case that the number of LCG is 4 is shown in Fig. 8.In fig. 8, long BSR is by indicating Total 24 bits (3 eight hyte) structure of 4 buffer size fields of the respective buffer size of LCG of the LCG ID from #0 to #3 At the Buffer Status Report of 4 LCG wholes can be sent.

It is shown in Fig. 9 and Figure 10 as shown in the buffer size field of 6 bits of short BSR, truncation BSR and long BSR Buffer size benchmark an example.The feelings that terminal installation 1 is not set in the parameter extended BSR-Sizes of higher level's layer Under condition, Figure 10 is used in the case where extended BSR-Sizes is set using buffer size benchmark shown in Fig. 9 Shown in extension buffer size benchmark.

In the case where carrying out routine BSR and periodicity BSR, in the TTI for sending BSR, exist with 2 or more In the case where the data that LCG can be sent, terminal installation 1 reports long BSR, reports short BSR in the other cases.

In the case where being filled BSR, send BSR TTI in filling bit number be send long BSR MAC CE and In the case where more than the size of its subheader, terminal installation 1 reports long BSR.It is less than the MAC CE for sending long BSR in filling bit number And its subheader size but to send the size of the MAC CE of short BSR and its subheader or more in the case where, terminal installation 1 carries out such as Lower movement.In the presence of the data that can be sent with 2 or more LCG, the truncation of the LCG of highest priority is reported BSR reports short BSR in the other cases.

All uplink BSR being triggered are cancelled in situation below.(1) include the feelings of BSR in MAC PDU Condition (2) is but right by permitting the UL-SCH distributed that can send whole uplink datas in buffer area by uplink For additional transmission BSR MACCE and its subheader the case where inadequate resource.

Next the D2D BSR involved in present embodiment is illustrated as follows.

In D2D BSR, using D2D communicate in D2D in workable logic channel send the amount of buffer of data as The message of MAC layer and notify to base station apparatus.In a mode of D2D BSR, by D2D communicate in workable logic channel set It is a kind, D2D BSR notifies the transmission data buffer zone in the logic channel to measure.But the workable logic in D2D communication Channel is that the transmission data buffer zone of each logic channel can also be notified in the same manner as uplink BSR in situation of more than two kinds The transmission data buffer zone amount for each LCG that amount or notice are made of logic channel of more than two kinds.In addition, the triggering of D2D BSR Condition both can be in the same manner as uplink BSR, can also be only using the whole of conventional BSR, periodicity BSR and filling BSR Use the trigger condition of a part.

Next, the format about D2D BSR MAC CE is illustrated.

Short BSR or the truncation of format i.e. Fig. 7 identical with uplink BSR had both can be used in D2D BSR MAC CE The long BSR of BSR and Fig. 8, also can be used different formats.For example, the situation that the number of the LCG used in D2D is 1 Under, it can also be as shown in Figure 11 using the 2nd short BSR without using LCG id field, such as the number of the LCG used in D2D It, can also be as shown in Figure 12 using the buffer size using 24 bits that LCG ID is #0 and #1 in the case where for 2 3rd short BSR of field.In addition, in the case that the number of such as LCG used in D2D is 4, it can also be as shown in Figure 13 Use the intermediate BSR being made of 2 eight hytes of the buffer size field that 44 bits are utilized.

In the case where use format identical with uplink BSR, it can make in the buffer size field of 6 bits The buffer size benchmark identical with uplink BSR as Fig. 9 and Figure 10 and extension buffer size benchmark.But It is that can also switched by extended BSR-Sizes for the uplink BSR buffer size benchmark used In the case of, for the buffer size benchmark of D2D BSR application drawing 9 always.That is, can also be in extended BSR-Sizes quilt In the case where setting, for D2D BSR without using extension buffer area benchmark.

In addition, the higher level's layer for independently switching buffer size benchmark with uplink also can be used in D2D BSR Parameter.In this case, in the distribution of the buffer size in uplink BSR and the buffer size in D2D BSR In the case that distribution is different, different buffer size benchmark can be set.

But the buffer size benchmark different from uplink BSR also can be used in D2D BSR.For example, can also To use the buffer size benchmark of 8 bits shown in Figure 14, the buffer size base of 4 bit shown in figure 15 can also be used It is quasi-.Thereby, it is possible to apply the 2nd short BSR, the 3rd short BSR.

An example involved in present embodiment for the logic channel ID of UL-SCH is shown in Figure 16.Pass through MAC PDU Head according to 5 bits shown in each MAC PDU subheader logic channel ID, base station apparatus can identify corresponding MAC CE, MAC SDU and filling.

But in Figure 16 effectively in the case where a kind of D2D BSR format (such as short BSR) is used only, and in D2D It, can be with the logic channel ID of application drawing 17 in the case where using short BSR, truncation BSR and long BSR in BSR.

Furthermore, it is possible to which any number of logic channel ID is applied to D2D BSR.

Hereinafter, explanation in terminal installation of the invention, includes multiple logic channels in the uplink data to be sent In the case where movement.

MAC layer has each mapping logical channels to the function of MAC PDU, in the case where carrying out newly transmission, using patrolling It collects channel prior sequence and assigns (Logical Channel Prioritization:LCP) process.Basic LCP process is to each It the priority of logic channel and must be sent out during corresponding with the QoS of radio bearer (Quality of Service) certain The Transmit Bit Rate (PrioritizedBit Rate:PBR) sent takes in the transmission priority to determine transmission data, MACPDU is mapped from the high data of the transmission priority for receiving the time point that uplink is permitted.

Rrc layer passes through to the lower parameter priority of the more big then priority of expression value corresponding with each logic channel, table Show the parameter prioritisedBitRate of Prioritized Bit rate (Prioritized BitRate:PBR) and indicates token bucket The parameter bucketSizeDuration of size duration (Bucket Size Duration:BSD) carries out signalling, on controlling The scheduling of uplink data.

Terminal installation 1 keeps variable Bj for each logic channel j.Bj quilt in the case where associated logic channel is established It is initialized as zero, according to each TTI to the value (PBR × TTI dulation) that the PBR of logic channel j is multiplied with during TTI Carry out add operation.But the value of Bj does not exceed token bucket size, is greater than the token bucket size of logic channel j in the value of Bj In the case where, the value of Bj is set to token bucket size.The token bucket size of certain logic channel is equal to PBR × BSD.

Terminal installation 1 gives logical channel assignment resource according to following processes.Whole logic channels of step 1:Bj > 0 are pressed It is allocated according to the sequence of priority from high to low.In the case where the PBR of certain radio bearer is set to infinity, terminal dress 1 is set before the PBR for judging the lower radio bearer of other priority to all data that can be sent of the radio bearer Distribute resource.Step 2: terminal installation 1 subtracts the conjunction for distributing to the size of MAC SDU of logic channel j in step 1 from Bj Count the value of part.Wherein, Bj can take negative value.Step 3: in the case where resource is available free, it is unrelated with the value of Bj and according to excellent The sequence from high to low of first grade is allocated whole logic channels, until data or the uplink license of logic channel disappear Until mistake.The logic channel equal to priority is allocated on an equal basis.

The priority of LCP process involved in present embodiment is as follows according to sequence from high to low.

Data from C-RNTI MAC CE or UL-CCCH

BSR MAC CE other than filling BSR

D2D BSR MAC CE other than filling BSR

PHR MAC CE or extension PHR MAC CE

Data from the logic channel other than UL-CCCH

BSR MAC CE based on filling BSR

D2D BSR MAC CE based on filling BSR

It is directed in this way compared to the MAC CE for D2D BSR higher for the MAC CE setting of uplink BSR Priority, thus uplink BSR and D2D BSR simultaneously be triggered in the case where, can prevent due to distribute D2D BSR MAC CE and the case where cause the inadequate resource being allocated to BSR MAC CE.The notice of uplink BSR is terminal installation 1 It is distributed necessary to uplink resource from base station apparatus 3.Therefore uplink is being caused due to distribution D2D BSR MAC CE In the case that road BSR is not notified to base station apparatus 3, it is contemplated that request SR to handle for uplink BSR, uplink The resource allocation of communication generates delay, communication efficiency decline.

But from compared to MAC CE relevant to D2D and it is preferred that viewpoint as MAC CE relevant with uplink It sets out, the priority of D2D BSR MAC CE is also possible to different priority.For example, D2D BSR MAC CE can be ratio PHRMAC CE or extension PHR MAC CE low priority, is also possible to than from the logic channel other than UL-CCCH The low priority of data.

But it can be set between the BSR MAC CE based on filling BSR and the D2D BSR MAC CE based on filling BSR Fixed arbitrary priority.

For example, be able to use in BSR MAC CE short BSR, truncate BSR and long BSR and D2D BSR MAC CE only In the case where being able to use short BSR, terminal installation 1 can carry out following actions according to filling bit number.

It is more than the size that filling bit number is 1 short BSR and its subheader and big less than 2 short BSR and its subheader In the case where small, terminal installation 1 carries out following actions.

In the TTI for sending BSR, existing there is no the data that can be sent by uplink can be sent by D2D Data in the case where, send and used the D2D BSR of short BSR.

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR of the truncation BSR for the LCG for having used highest priority.

In the other cases, the uplink BSR for having used short BSR is sent.

It is more than the size that filling bit number is 2 short BSR and its subheader and big less than 1 long BSR and its subheader In the case where small, terminal installation 1 carries out following actions.

In the case where there are the data that can be sent by D2D in the TTI for sending BSR, transmission has used short BSR's D2D BSR。

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR of the truncation BSR for the LCG for having used highest priority.

In the case where there are the data that can be sent by 1 LCG of uplink in the TTI for sending BSR or do not deposit In the case where the data that can be sent by uplink, the uplink BSR for having used short BSR is sent.

More than the size that filling bit number is 1 long BSR and its subheader and less than BSR and 1 short BSR 1 long with And in the case where the size of their subheader, terminal installation 1 carries out following actions.

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR for having used long BSR.

In the case where there are the data that can be sent by 1 LCG of uplink in the TTI for sending BSR or do not deposit In the case where the data that can be sent by uplink, sends the uplink BSR for having used short BSR and used short BSR D2D BSR.

In the case where more than the size that filling bit number is BSR and 1 short BSR 1 long and their subheader, terminal Device 1 carries out following actions.

In the TTI for sending BSR, transmission has used the uplink BSR of long BSR and has used the D2D of short BSR BSR。

In addition, short BSR can be used in BSR MAC CE and D2D BSR MAC CE, truncate BSR's and long BSR In the case of, terminal installation 1 can also carry out following actions according to filling bit number.

It is more than the size that filling bit number is 1 short BSR and its subheader and big less than 2 short BSR and its subheader In the case where small, terminal installation 1 carries out following actions.

In the TTI for sending BSR, exist there is no the data that can be sent by uplink by 2 or more of D2D The data that can send of LCG in the case where, send the D2D BSR of the truncation BSR for the LCG for having used highest priority.

In the TTI for sending BSR, there is 1 LCG by D2D there is no the data that can be sent by uplink In the case where the data that can be sent, the D2D BSR for having used short BSR is sent.

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR of the truncation BSR for the LCG for having used highest priority.

In the other cases, the uplink BSR for having used short BSR is sent.

It is more than the size that filling bit number is 2 short BSR and its subheader and big less than 1 long BSR and its subheader In the case where small, terminal installation 1 carries out following actions.

In the case where there are the data that can be sent by 2 or more the LCG of D2D in the TTI for sending BSR, send The D2D BSR of the truncation BSR of the LCG of highest priority is used.

Send BSR TTI in there are the data that can be sent by 1 LCG of D2D in the case where or there is no by In the case where the data that D2D can be sent, the D2D BSR for having used short BSR is sent.

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR of the truncation BSR for the LCG for having used highest priority.

In the case where there are the data that can be sent by 1 LCG of uplink in the TTI for sending BSR or do not deposit In the case where the data that can be sent by uplink, the uplink BSR for having used short BSR is sent.

More than the size that filling bit number is 1 long BSR and its subheader and less than BSR and 1 short BSR 1 long with And in the case where the size of their subheader, terminal installation 1 carries out following actions.

In the TTI for sending BSR, there is the case where data that can be sent by 2 or more LCG of uplink Under, send the uplink BSR for having used long BSR.

In the TTI for sending BSR, exist there is no the data that can be sent by uplink by 2 of D2D link In the case where the data that above LCG can be sent, the D2D BSR for having used long BSR is sent.

In the TTI for sending BSR, there are the data that can be sent by 1 LCG of uplink, and exist by D2D In the case where the data that 2 or more LCG of link can be sent, sends the uplink BSR for having used short BSR and use The D2D BSR of the truncation BSR of the LCG of highest priority in D2D link.

In the other cases, transmission has used the uplink BSR of short BSR and has used the D2D BSR of short BSR.

It is more than the size that filling bit number is BSR and 1 short BSR 1 long and their subheader and long less than 2 In the case where the size of BSR and their subheader, terminal installation 1 carries out following actions.

There is no in the case where the data that can be sent by 2 or more the LCG of D2D in the TTI for sending BSR, send out The D2D BSR for sending the uplink BSR for having used long BSR and having used short BSR.

In the TTI for sending BSR, exist there is no the data that can be sent by 2 or more LCG of uplink In the case where the data that can be sent by 2 or more the LCG of D2D, sends the uplink BSR for having used short BSR and use The D2D BSR of long BSR.

In the TTI for sending BSR, there are the data that can be sent by 2 or more LCG of uplink, and deposit In the case where the data that can be sent by 2 or more the LCG of D2D, sends the uplink BSR for having used long BSR and make With the D2D BSR of the truncation BSR of the LCG of highest priority in D2D link.

In the case where more than the size that filling bit number is 2 long BSR and their subheader, transmission has used length The uplink BSR of the BSR and D2D BSR for having used long BSR.

Movement in this way efficiently sends uplink BSR and D2D BSR so as to use filling bit.

But in the above description send fill BSR in the case where preferential compared to D2D BSR uplink BSR, but the preferential D2D BSR that sends is also effective.In this case, can make for routine BSR or periodicity BSR due to phase Than caused by D2D BSR the is uplink BSR preferential send opportunity of D2D BSR reduction by using filling BSR's D2D BSR makes up.

Wherein, in the case where sending filling BSR, it can also send and be filled among uplink BSR and D2D BSR by terminal Set 1 selected arbitrary BSR.

Wherein, in the case where sending filling BSR, uplink BSR and D2D BSR can also alternately be sent.That is, The BSR not sent by last filling BSR among uplink BSR and D2D BSR can be sent.

In addition, in the case where terminal installation 1 is requested the transmission of multiple MAC PDU in 1 TTI, terminal installation 1 It can carry out part or all of following actions.

Uplink BSR and D2D BSR are included in identical or different MAC PDU.

It is wrapped not including in the conventional BSR of uplink or the MAC PDU for the periodical BSR of uplink Containing the filling BSR for being directed to uplink.

Include in the conventional BSR of D2D link or the MAC PDU for the periodical BSR of D2D link not including For the filling BSR of D2D link.

Multiple MAC PDU are sent for example, being requested in 1 TTI in terminal installation 1, and are wrapped in 1MAC PDU It can also include needle in 2MACPDU in the case where containing conventional BSR, the periodicity BSR or filling BSR for uplink To the conventional BSR of D2D link, periodicity BSR or filling BSR.

Multiple MAC PDU are sent for example, being requested in 1 TTI in terminal installation 1, and are wrapped in 1MAC PDU Containing for uplink routine/periodicity BSR and for D2D link filling BSR in the case where, can also be in 2MAC Comprising routine/periodicity BSR for the D2D link and filling BSR for uplink in PDU, in 3MAC PDU Comprising the filling BSR for uplink and for the filling BSR of D2D link.

But it is expected in 1 MAC PDU at most also only includes 1 BSR MAC CE and 1 D2D BSR MAC CE. In such a situa-tion in the case where the multiple events of the timing that can send BSR trigger uplink BSR, with filling BSR Compared to can preferential routine BSR and periodicity BSR.In such a situa-tion in the multiple event triggerings of timing that can send BSR It, can preferential routine BSR and periodicity BSR compared with filling BSR in the case where D2D BSR.

In addition it is also possible at most only include 1 BSR MAC CE or 1 D2D BSR MAC CE in MAC PDU.At this Under conditions of sample in the case where the multiple events of the timing that can send BSR trigger uplink BSR and D2D BSR, the phase Hope the preferential D2D BSR based on conventional BSR and periodicity BSR compared with the uplink BSR based on filling BSR.

In the above description, for uplink BSR and D2D BSR define different MACCE (BSR MAC CE and D2D BSR MAC CE).But as the another way in the present invention, D2D is distributed to 1 LCG of uplink BSR notice BSR is also effective.For example, 1 LCG can also be distributed to D2D in the case where having used 4 LCG in BSR MAC CE BSR.D2D BSR is distributed to as by which LCG, such as can both be determined as LCG ID#4, the letter of higher level's layer can also be passed through It enables to set.

Hereinafter, the composition about the device in present embodiment is illustrated.

Figure 18 is the schematic block diagram for indicating the composition of base station apparatus 3 of present embodiment.As shown, 3 structure of base station apparatus As including logical channel assignment portion 301, transmission unit 302, receiving unit 303, MAC infomation detection portion 304, resource allocation section 305 With dual-mode antenna 306.Logical channel assignment portion 301 is directed to terminal installation 1, distributes the identification information of logic channel.For example, patrolling It is also excellent comprising each logic channel above-mentioned other than the identifier comprising each logic channel in the identification information for collecting channel First grade, PBR, BSD etc..

Transmission unit 302 is configured to, and for terminal installation 1, sends data-signal, control signal by dual-mode antenna 306.Its In, transmission unit 302 is configured to send the identification information of the logic channel distributed by logical channel assignment portion 301.In addition, transmission unit 302 are configured to send the uplink for distributing terminal installation 1 by resource allocation section 305 to terminal installation 1 in defined timing respectively The distribution information of link circuit resource and the distribution information of D2D resource.

Receiving unit 303 is configured to receive the data-signal sent from terminal installation 1, control letter by dual-mode antenna 306 Number.

MAC PDU is detected in MAC infomation detection portion 304 from the signal received by receiving unit 303, and according to the MAC The MAC subheader that PDU is included, each MAC CE of the detection comprising information as C-RNTI, BSR, PH from the MAC PDU.

Resource allocation section 305 is to each terminal installation 1 shown in the BSRMAC CE detected as MAC infomation detection portion 304 The data volume of Uplink buffer take in, distribute uplink resource to each terminal installation 1, and to by D2D BSR The data volume of the buffer area D2D of each terminal installation 1 shown in MAC CE takes in, to each terminal installation 1 distribution D2D money Source.The information of the uplink resource and D2D resource that are distributed is exported to transmission unit 302.

Figure 19 is the schematic block diagram for indicating the composition of terminal installation 1 of present embodiment.As shown, 1 structure of terminal installation As including receiving unit 101, Uplink buffer 102, the buffer area D2D 103, BSR generating unit 104, MAC information generation unit 105, transmission unit 106 and dual-mode antenna 107.

Receiving unit 101, which is configured to receive by dual-mode antenna 107, to be sent from base station apparatus 3 or other terminal installations 1 Data-signal, control signal.In addition, receiving unit 101 receives the identification information and uplink of the logic channel sent from base station apparatus 3 The distribution information of link circuit resource or D2D resource.

Uplink buffer 102 is configured to, the case where producing the uplink data sent to base station apparatus 3 Under, it is temporarily taken care of until to base station apparatus 3 until being sent completely.The buffer area D2D 103 is configured to, and is producing to it In the case that the D2D that his terminal installation 1 is sent sends data, temporarily taken care of until the transmission to other terminal installations 1 is complete As only.But Uplink buffer 102 and the buffer area D2D 103 can also share and use same storage region.

BSR generating unit 104 is generated in defined timing for each LCG taken care of in Uplink buffer 102 The uplink BSR that is notified of uplink data amount.Furthermore BSR generating unit 104 is in defined timing, generate for pair The D2D of each LCG (or logic channel) taken care of in the buffer area D2D 103 sends the D2D BSR that data volume is notified. Uplink BSR and D2D BSR generated as BSR information and be output to MAC information generation unit 105.

MAC information generation unit 105 is configured to generate MAC CE according to information relevant to C-RNTI, BSR, PH, and raw At to contain the MAC PDU for sending data and being notified to base station apparatus 3.Here, MAC information generation unit 105 is based on above-mentioned LCP process generates MAC PDU.Specifically, in the size for being directed to the MAC PDU based on assigned uplink resource, In the case where the distribution that can not carry out whole MAC CE and transmission data, based on each MAC CE and the preferential of data is sent Grade gives up part of it.

Transmission unit 106 is configured to, and for base station apparatus 3, the data letter of uplink is sent by dual-mode antenna 107 Number, control signal.In addition, transmission unit 106 is configured to, for other terminal installations 1, D2D letter is sent by dual-mode antenna 107 Number.

To sum up, the terminal installation 1 of present embodiment can have following feature.

The terminal installation 1 of present embodiment is the cellular communication (In carried out with base station apparatus 3 (referred to here as E-UTRAN) Referred to herein as the 1st communication) and terminal installation 1 between D2D communication (the referred to here as the 2nd communication) terminal installation 1, have transmission Portion 106, the transmission unit 106 is in the uplink of the 1st communication, uplink BSR of the report for the 1st communication (referred to here as the 1st Buffer Status Report) and D2D BSR (referred to here as the 2nd buffer state communicated for the described 2nd Report), process, the 2nd buffering described in the priority ratio of the 1st Buffer Status Report are assigned for bgical channel priority sequence The priority of zone state report is high.

In addition, in the present embodiment, the uplink that the transmission unit 106 of the terminal installation 1 is communicated the described 1st Lu Zhong, report assigns process for the bgical channel priority sequence for the power headroom reporting (PHR) of the 1st communication, described The priority of 2nd Buffer Status Report is higher than the priority of the power headroom reporting (PHR).

In addition, in the present embodiment, the bgical channel priority sequence imparting process of the terminal installation 1 is executing It is applied in the case where initial transmission.

In addition, in the present embodiment, the terminal installation 1 is pressed during the bgical channel priority sequence assigns According to the order-assigned uplink resource of the priority.

In addition, in the present embodiment, the 1st Buffer Status Report of the terminal installation 1 is for the described 1st The conventional Buffer Status Report (conventional BSR) of communication or the periodic buffer status report (period communicated for the described 1st Property BSR), the 2nd Buffer Status Report is for the conventional Buffer Status Report of the 2nd communication or for described the The periodic buffer status report of 2 communications.

In addition, in the present embodiment, the uplink that the transmission unit 106 of the terminal installation 1 is communicated the described 1st Lu Zhong, 3rd Buffer Status Report (e.g. used the uplink BSR of filling BSR) of the report for the 1st communication And the 4th Buffer Status Report (e.g. having used the D2D BSR of filling BSR) for the 2nd communication, for described Bgical channel priority sequence assigns process, and the priority of the 2nd Buffer Status Report is higher than the 3rd buffer state report The priority of announcement and the 4th Buffer Status Report.

In addition, in the present embodiment, the terminal installation 1 delays in the 1st Buffer Status Report and the described 3rd It rushes in the case that zone state report is triggered, maximum in 1 MAC PDU includes the 1st Buffer Status Report and institute 1 Buffer Status Report in the 3rd Buffer Status Report is stated, the 1st Buffer Status Report is relative to the described 3rd Buffer Status Report has priority.

In addition, being also configured in the present embodiment, the terminal installation 1 is characterized in that, in the 2nd buffering It is maximum comprising described in 1 MAC PDU in the case that zone state report and the 4th Buffer Status Report are triggered 1 Buffer Status Report in 2nd Buffer Status Report and the 4th Buffer Status Report, the 2nd buffering Zone state report has priority relative to the 4th Buffer Status Report.

In addition, in the present embodiment, the terminal installation 1 is in the 1st Buffer Status Report, the 2nd buffering Zone state report, the 3rd Buffer Status Report and the 4th Buffer Status Report are triggered, and are requested In the case where sending multiple MAC PDU in certain 1 TTI, in the arbitrary MAC for not including the 1st Buffer Status Report It include the 3rd Buffer Status Report in PDU, in the arbitrary MACPDU for not including the 2nd Buffer Status Report Include the 4th Buffer Status Report.

In addition, the terminal installation 1 of present embodiment be progress with the 1st of E-UTRAN communicate and terminal installation 1 between The 2nd communication terminal installation 1, have a transmission unit 106, the transmission unit 106 in the uplink of the 1st communication, It sends comprising the 1st Buffer Status Report MAC CE (such as BSR MAC CE) for the 1st communication and for described One or more MAC PDU of the 2nd Buffer Status Report MAC CE (such as D2D BSR MAC CE) of 2nd communication, described the 1 Buffer Status Report MACCE and the 2nd Buffer Status Report MAC CE includes buffering corresponding with logic channel group Area's size field, the buffer size field, which indicates to spread, constructs whole MAC comprising one or more MAC PDU The total amount for the data that whole logic channels of the corresponding logic channel group (LCG) after PDU can utilize, is not setting In the case where 1st parameter (such as extended BSR-Sizes), include in the 1st Buffer Status Report MAC CE is slow The value of zone state field is rushed to select based on the associated buffer size benchmark of the value of buffer size (referred to here as the 1st table) It selects, in the case where setting 1 parameter, the buffer state that includes in the 1st Buffer Status Report MAC CE The value of field based on the associated extension buffer size benchmark (In different from the 1st table of the value of the buffer size Referred to herein as the 2nd table) it selects, the buffer state field for including in selecting the 2nd Buffer Status Report MAC CE 3rd table used in the case where value is independent of the 1st parameter.

In addition, in the present embodiment, in the 2nd Buffer Status Report MAC CE to the terminal installation 1 The value for the buffer state field for including selected in the case where used in the 3rd table be table identical with the 1st table.

In addition, in the present embodiment, the 1st table and the 2nd table used by the terminal installation 1 shows that institute The value for stating buffer size is corresponding with index, the index in the 2nd table show with corresponding to the index in the 1st table The value of buffer size compares the value of the buffer size extended.

In addition, in the present embodiment, including in the 2nd Buffer Status Report used by the terminal installation 1 Buffer size field bit number less than the buffer size field for including in the 1st Buffer Status Report bit Number.

In addition, the terminal installation 1 of present embodiment be progress with the 1st of E-UTRAN communicate and terminal installation 1 between The 2nd communication terminal installation 1, have: configuration part, setting controlled by the E-UTRAN for it is described 2nd communication 1st mode (such as mode 1) of resource is selected the money communicated for the described 2nd by the terminal installation 1 among resource pool 2nd mode (such as mode 2) in source；And transmission unit, in the uplink of the 1st communication, report is logical for the described 2nd The Buffer Status Report of letter, in the case where setting 2 mode, for the Buffer Status Report of the 2nd communication It is not triggered.

In addition, the terminal installation 1 of present embodiment is in the case where setting 1 mode, for the described 2nd The Buffer Status Report of communication can be triggered.

In addition, the terminal installation 1 of present embodiment is in the case where setting or having reset 2 mode, The Buffer Status Report for the 2nd communication being triggered is cancelled.

In addition, in the present embodiment, the Buffer Status Report for the 2nd communication of the terminal installation 1 is Conventional Buffer Status Report is expired simultaneously for the conventional Buffer Status Report of the 2nd communication based on retxBSR-Timer And the terminal installation 1 has event as the data that can be used in for the transmission of the 2nd communication and is triggered.

In addition, the terminal installation 1 of present embodiment is at least based on the Buffer Status Report for the 2nd communication The case where being triggered and not being cancelled, triggers scheduling request, and the scheduling request exists for requesting for the 1st communication The UL-SCH resource of line link initially sent.

In addition, the terminal installation 1 of present embodiment is in the case where setting or having reset 2 mode, Cancel the tune for being originated from pending (pending) of the conventional Buffer Status Report for the 2nd communication based on the event Degree request.

In addition, the integrated circuit of present embodiment is mounted to communicate and terminal installation 1 with the 1st of E-UTRAN Between the 2nd communication terminal installation 1 integrated circuit, play the terminal installation 1 and be included in the upper of the 1st communication In line link, 1st Buffer Status Report of the report for the 1st communication and the 2nd buffer area for the 2nd communication A series of function including the function of state report assigns process, the 1st buffer area shape for bgical channel priority sequence The priority of state report is higher than the priority of the 2nd Buffer Status Report.

In addition, the integrated circuit of present embodiment is mounted to communicate and terminal installation 1 with the 1st of E-UTRAN Between the 2nd communication terminal installation 1 integrated circuit, play the terminal installation 1 and be included in the upper of the 1st communication In line link, send comprising the 1st Buffer Status Report MAC CE for the 1st communication and for the 2nd communication The 2nd Buffer Status Report MAC CE one or more MAC PDU function including a series of function, the described 1st is slow Rushing zone state report MAC CE and the 2nd Buffer Status Report MAC CE includes buffer area corresponding with logic channel group Size field, the buffer size field, which indicates to spread, constructs whole MAC comprising one or more MAC PDU The total amount for the data that whole logic channels of the corresponding logic channel group after PDU can utilize is not setting the 1st ginseng In the case where number, the value for the buffer state field for including in the 1st Buffer Status Report MAC CE is based on and buffer area The value of size associated 1st table selects, in the case where setting 1 parameter, the 1st Buffer Status Report The value for the buffer state field for including in MAC CE is based on associated different from the 1st table with the value of the buffer size The 2nd table select, the feelings of the value for the buffer state field for including in selecting the 2nd Buffer Status Report MAC CE 3rd table used under condition is independent of the 1st parameter.

In addition, the integrated circuit of present embodiment is mounted to communicate and terminal installation 1 with the 1st of E-UTRAN Between the 2nd communication terminal installation 1 integrated circuit, play the terminal installation 1 comprising setting by the E-UTRAN To control for the 1st mode of the resource of the 2nd communication or be selected among resource pool by the terminal installation 1 for described Report is for the 2nd communication in the function of 2nd mode of the resource of the 2nd communication and the uplink communicated the described 1st A series of function including the function of Buffer Status Report, in the case where setting 2 mode, for the described 2nd The Buffer Status Report of communication is not triggered.

In addition, the wireless communications method of present embodiment is for communicate with the 1st of E-UTRAN and terminal installation The wireless communications method of the terminal installation 1 of the 2nd communication between 1, in the uplink of the 1st communication, report is directed to institute The 1st Buffer Status Report of the 1st communication and the 2nd Buffer Status Report for the 2nd communication are stated, logic is believed Road priority assigns process, and the priority of the 1st Buffer Status Report is higher than the excellent of the 2nd Buffer Status Report First grade.

In addition, the wireless communications method of present embodiment is for communicate with the 1st of E-UTRAN and terminal installation The wireless communications method of the terminal installation 1 of the 2nd communication between 1, in the uplink of the 1st communication, sending includes needle The 1st Buffer Status Report MAC CE to the 1st communication and the 2nd Buffer Status Report for the 2nd communication One or more MAC PDU, the 1st Buffer Status Report MAC CE of MAC CE and the 2nd Buffer Status Report MAC CE includes buffer size field corresponding with logic channel group, and the buffer size field, which indicates to spread, constructs packet Whole logic channel energy of the corresponding logic channel group after whole MAC PDU containing one or more MAC PDU The total amount of the data enough utilized includes in the 1st Buffer Status Report MAC CE in the case where not setting 1 parameter Buffer state field value based on selecting with associated 1st table of the value of buffer size, setting the 1st parameter In the case where, the value for the buffer state field for including in the 1st Buffer Status Report MAC CE is based on and the buffering The value of area's size associated the 2nd table different from the 1st table selects, and is selecting the 2nd Buffer Status Report MAC 3rd table used in the case where the value for the buffer state field for including in CE is independent of the 1st parameter.

In addition, the wireless communications method of present embodiment is for communicate with the 1st of E-UTRAN and terminal installation The wireless communications method of the terminal installation 1 of the 2nd communication between 1, setting is controlled by the E-UTRAN leads to for the described 2nd 1st mode of the resource of letter is selected to be used for the 2nd of the resource of the 2nd communication among resource pool by the terminal installation 1 Mode, in the uplink of the 1st communication, the Buffer Status Report that report is communicated for the described 2nd, setting In the case where stating the 2nd mode, it is not triggered for the Buffer Status Report of the 2nd communication.

The program that execution acts on base station apparatus 3 according to the present invention and terminal installation 1 can be to CPU (Central Processing Unit, central processing unit) etc., which is controlled such that, realizes above-mentioned implementation according to the present invention The program (program for functioning computer) of the function of mode.Moreover, the information handled by these devices is at the time of its processing It is temporarily stored in RAM (Random Access Memory, random access memory), later, is saved in Flash ROM In various ROM, HDD such as (Read Only Memory) (Hard Disk Drive, hard disk drive), and as needed by CPU It reads, is modified/is written.

Alternatively, it is also possible to realize one of the terminal installation 1 in above embodiment, base station apparatus 3 by computer Point.In such a case it is possible to by the way that computer-readable recording medium will be recorded in for realizing the program of the control function In, so that computer system is read in the program for being recorded in the recording medium and is executed to realize.

In addition, " computer system " mentioned here, is the computer system for being built in terminal installation 1 or base station apparatus 3, Include the hardware such as OS, peripheral equipment.In addition, so-called " computer-readable recording medium ", refer to floppy disk, photomagneto disk, ROM, The storage devices such as the removable mediums such as CD-ROM, the hard disk for being built in computer system.

In turn, so-called " computer-readable recording medium " is also comprising such as passing through internet network or telephone line etc. Communication line in the case that communication line sends program dynamically keeps the medium, such as in this case of program in a short time like that The volatile storage of the inside computer system for becoming server or client keep program within a certain period of time like that Medium.In addition, above procedure either a part for realizing aforementioned function program, be also possible to can by with The program of recorded program in computer systems combined to realize aforementioned function.

In addition, aggregate (the device that the base station apparatus 3 in above embodiment also can be realized to be made of multiple devices Group).Each device of constituent apparatus group can have base station apparatus 3 involved in above embodiment each function or each function mould Part or all of block.As device group, whole each functions or each functional module with base station apparatus 3.In addition, Terminal installation 1 involved in above embodiment can also be communicated with the base station apparatus as aggregate.

In addition, the base station apparatus 3 in above embodiment is also possible to EUTRAN (Evolved Universal Terrestrial Radio Access Network).In addition, the base station apparatus 3 in above embodiment also can have phase For part or all of the function of the superior node of eNodeB.

In addition it is also possible to by above embodiment terminal installation 1, base station apparatus 3 part or all typically It is implemented as the LSI of integrated circuit, is also implemented as chipset.Terminal installation 1, base station apparatus 3 each functional module both It may be individually chipped, part or all can also be integrated and carry out chip.In addition, the method for integrated circuit is not It is limited to LSI, can also be realized by special circuit or general processor.In addition, going out in the progress with semiconductor technology In the case where having showed the technology instead of the integrated circuit of LSI, the integrated circuit based on the technology also can be used.

In addition, in the above-described embodiment, as communication device an example and describe terminal installation, but the present application It's not limited to that, can also apply to the fixed or non-movable electronic equipment for being set to indoor and outdoor, for example, AV is set The terminal installations such as standby, cooking apparatus, cleaning/washing facility, air-conditioning equipment, office equipment, automatic vending machine, other lifestyle devices Or communication device.

More than, come to describe embodiments of the present invention in detail with reference to attached drawing, but specific constitute is not limited to this implementation Mode, the also design alteration etc. comprising not departing from the range of purport of the invention.In addition, the present invention is shown in claims Various changes are able to carry out in range, will distinguish in various embodiments disclosed technological means it is appropriately combined obtained from Embodiment is also included in the technical scope of the present invention.In addition, about the element recorded in the respective embodiments described above, to acquirement The composition that the element of effect same is replaced each other is also contained within the technical scope of the present invention.

Industrial availability

The present invention can be applied to the life household electrical appliances such as the communication devices such as portable phone, AV equipment and other electronics are set It is standby.

Label declaration

1 (1A, 1B, 1C) terminal installation

2 repeaters

3 base station apparatus

101 receiving units

102 Uplink buffers

103 buffer areas D2D

104 BSR generating units

105 MAC information generation units

106 transmission units

107 dual-mode antennas

301 logical channel assignment portions

302 transmission units

303 receiving units

304 MAC infomation detection portions

305 resource allocation sections

306 dual-mode antennas

Claims (15)

1. a kind of terminal installation (1A), which is characterized in that signal is sent to base station apparatus (3) by uplink,

The terminal installation has information generation unit (105), and the information generation unit executes needle in the case where newly being sent Process is assigned to the bgical channel priority sequence of the uplink, is considered during the bgical channel priority sequence assigns For the priority of multiple MAC controlling elements,

In the multiple MAC controlling element, 1MAC controlling element and 2MAC controlling element are included at least,

The 1MAC controlling element is used to provide and be directed in the 1st buffer area of the uplink to the base station apparatus The relevant information of the 1st data volume that can be sent,

The 2MAC controlling element is used to provide and be directed to for the terminal installation and other terminals to the base station apparatus The relevant letter of the 2nd data volume that can be sent in 2nd buffer area of the 1st link of the direct communication between device (1B, 1C) Breath,

During bgical channel priority sequence assigns, in order to other than filling and comprising the 1MAC controlling element with In order to other than filling and comprising the 2MAC controlling element it is high compared to priority.

2. terminal installation according to claim 1, wherein

In order to other than filling and comprising the 2MAC controlling element in order to fill and comprising 1MAC control want Element is high compared to the priority.

3. terminal installation according to claim 1, wherein

In order to fill and comprising the 2MAC controlling element in order to fill and comprising the 1MAC controlling element phase It is lower than the priority.

4. terminal installation according to claim 1, wherein

In the multiple MAC controlling element, include the 3MAC for power headroom reporting (PHR) to be supplied to the base station apparatus Controlling element,

3MAC controlling element priority compared with the 2MAC controlling element is high.

5. terminal installation according to claim 4, wherein

In addition in order to fill and the case where include the 1MAC controlling element other than, the 1MAC controlling element and described the 3MAC controlling element is high compared to the priority.

6. a kind of integrated circuit, which is characterized in that the end for sending signal to base station apparatus (3) by uplink can be installed on End device (1A),

The integrated circuit plays the terminal installation comprising a series of function including following function: being sent newly In the case where the bgical channel priority sequence that executes for the uplink assign process, in bgical channel priority sequence The priority for being directed to multiple MAC controlling elements is considered during assigning,

In the multiple MAC controlling element, 1MAC controlling element and 2MAC controlling element are included at least,

The 1MAC controlling element is used to provide and be directed in the 1st buffer area of the uplink to the base station apparatus The relevant information of the 1st data volume that can be sent,

The 2MAC controlling element is used to provide and be directed to for the terminal installation and other terminals to the base station apparatus The relevant letter of the 2nd data volume that can be sent in 2nd buffer area of the 1st link of the direct communication between device (1B, 1C) Breath,

During bgical channel priority sequence assigns, in order to other than filling and comprising the 1MAC controlling element with In order to other than filling and comprising the 2MAC controlling element it is high compared to priority.

7. integrated circuit according to claim 6, wherein

In order to other than filling and comprising the 2MAC controlling element in order to fill and comprising 1MAC control want Element is high compared to the priority.

8. integrated circuit according to claim 6, wherein

In order to fill and comprising the 2MAC controlling element in order to fill and comprising the 1MAC controlling element phase It is lower than the priority.

9. integrated circuit according to claim 6, wherein

In the multiple MAC controlling element, include the 3MAC for power headroom reporting (PHR) to be supplied to the base station apparatus Controlling element,

3MAC controlling element priority compared with the 2MAC controlling element is high.

10. integrated circuit according to claim 9, wherein

In addition in order to fill and the case where include the 1MAC controlling element other than, the 1MAC controlling element and described the 3MAC controlling element is high compared to the priority.

11. a kind of wireless communications method, which is characterized in that for sending the end of signal to base station apparatus (3) by uplink End device (1A),

The bgical channel priority sequence executed in the case where initially send for the uplink assigns process, in institute It states during bgical channel priority sequence assigns and considers the priority for being directed to multiple MAC controlling elements,

In the multiple MAC controlling element, 1MAC controlling element and 2MAC controlling element are included at least,

The 1MAC controlling element is used to provide and be directed in the 1st buffer area of the uplink to the base station apparatus The relevant information of the 1st data volume that can be sent,

The 2MAC controlling element is used to provide and be directed to for the terminal installation and other terminals to the base station apparatus The relevant letter of the 2nd data volume that can be sent in 2nd buffer area of the 1st link of the direct communication between device (1B, 1C) Breath,

During bgical channel priority sequence assigns, in order to other than filling and comprising the 1MAC controlling element with In order to other than filling and comprising the 2MAC controlling element it is high compared to priority.

12. wireless communications method according to claim 11, wherein

In order to other than filling and comprising the 2MAC controlling element in order to fill and comprising 1MAC control want Element is high compared to the priority.

13. wireless communications method according to claim 11, wherein

In order to fill and comprising the 2MAC controlling element in order to fill and comprising the 1MAC controlling element phase It is lower than the priority.

14. wireless communications method according to claim 11, wherein

In the multiple MAC controlling element, include the 3MAC for power headroom reporting (PHR) to be supplied to the base station apparatus Controlling element,

3MAC controlling element priority compared with the 2MAC controlling element is high.

15. wireless communications method according to claim 14, wherein

In addition in order to fill and the case where include the 1MAC controlling element other than, the 1MAC controlling element and described the 3MAC controlling element is high compared to the priority.